TANVI SHAH ARCHITECTURE PORTFOLIO
TANVI SHAH Master of Architecture, 2018 tanviyshah@gmail.com (765) 421-5470
1 | 2018 ARCHITECTURE PORTFOLIO
EDUCATION University of Cincinnati Master of Architecture Class of 2018 University of Illinois at Urbana-Champaign Bachelor of Science in Architectural Studies Minor in Landscape Architecture Class of 2015 Oyster International School and Junior College Maharashtra, India Class of 2010
LEADERSHIP/HONORS External Vice President American Institute of Architecture Students, UIUC 2014 - 2015 Secretary American Institute of Architecture Students, UIUC 2013 - 2014 Gargoyle Member Gargoyle Architecture Honor Society, UIUC 2013 - 2015 Dean’s List Honors, UIUC 2014 - 2015 Student of the Year Award Oyster International School and Junior College 2010 Most Deserving Student Award Little Flower Convent High School 2008 Prefect Little Flower Convent High School 2008
SKILLS Revit Rhino + V-Ray AutoCAD SketchUp 3D Studio Max Photoshop Illustrator InDesign
EXPERIENCE GBBN - Cincinnati, OH May - August 2017 • Assisted with design and created presentation drawings for a nonprofit organization building and a theater rehearsal hall using Rhino and the Adobe Suite. • Revised drawings of units in an apartment building in Revit as per ADA code. • Experimented with site modeling techniques and materials utilizing a laser cutter. Corgan - Dallas, TX August - December, 2016 • Prepared Permit drawing set, Issue for Construction set, City Comment set, and Revision sets for an office fit-out in an existing data center. • Reviewed submittals of shop drawings, product data, and product samples for a data hall and an office addition. • Modeled a government data center for a design build competition in Revit. • Created schematic plans for client presentations using Photoshop and Illustrator. • Designed and modeled an office fit-out area in an existing data center in Revit. • Responded to contractor Requests For Information and coordinated design solutions to on-site issues. HDR Architecture - Chicago, IL January - April, 2016 • Conducted façade and signage studies for a medical research building. • Surveyed job sites and drafted plans, RCPs, and elevations in AutoCAD. • Planned layout and designed furniture details for a textile and furniture showroom. • Modeled and drafted the interior renovation of a laboratory using Revit. • Designed the layout for a simulation laboratory addition to an existing hospital. • Rendered images using Rhino, V-Ray and Photoshop. • Laid out and compiled a book of selected HDR works. Graduate Assistant - University of Cincinnati August - December, 2017 • Taught AutoCAD, Rhino, V-Ray, Photoshop, Illustrator, and InDesign to architecture and interior design sophomores.
RESUME | 2
01 02 03 04
RESPONSIBLE RETREAT Modular Micro Cabins 7 - 24
THE MARKETPLACE Innovation Center 25 - 38
[RE]FRAME
Modular Library 39 - 44
THE COURTYARD Boutique Hotel 45 - 52
3 | TABLE OF CONTENTS
01
02
03
04
BLANK CANVAS Library 53 - 60
THE BLOOM TABLE
Table with Fold-out Seats 63 - 68
ARCHITEX SHOWROOM
Renovation 71 - 76
CYRUSONE DATA CENTER Office and Breakroom 77 - 82
05
06
07
08
05 06 07 08
TABLE OF CONTENTS | 4
01 ACADEMIC WORK
5 | ACADEMIC WORK
ACADEMIC WORK | 6
01 RESPONSIBLE RETREAT Project: Semester: Professor: Duration: Team:
Responsible Development of Poiana, Romania Fall 2017 and Spring 2018: Thesis Aarati Kanekar and Michael McInturf 33 weeks John Arnaud, Brent Nichols, Ben Romero, Tanvi Shah
The goal of this thesis is to responsibly develop a 200-hectare piece of land in Romania's Apuseni mountain region. New development and tourism are used to protect the area's natural resources and strengthen the local economy. The proposal includes accomodations for camping, a twentyroom eco-resort which contains dining and amenities, and a series of modular micro cabins for more singular immersion in the environment. Off-site prefabrication of the structures minimizes disturbance on-site as well as creates income opportunities for the locals. Development in the nearby commune of Pietroasa enables creation of local income opportunities, increases the availability of tourism infrastructure, and facilitates prefabrication of the mountain lodging and development. The local income opportunities include food production, a micro brewery, a fabrication facility, and spaces for implementation of vocational training and retooling for hospitality and construction workforces.
7 | RESPONSIBLE RETREAT
REGIONAL SURVEY The Apuseni national park is situated in the northwestern mountainous region of Romania. It is well connected to bigger cities by a road network, making it accessible to tourists year round. Besides attractions within the park, this region is popular for UNESCO sites such as churches and fortresses bringing in tourists from all over the world.
9 | RESPONSIBLE RETREAT
APUSENI NATIONAL PARK The park is nicknamed 'Caver's Paradise' for the plethora of rich land formations therein. Poiana is located within the boundary of this park which is protected by various entities, namely the Romanian government, the International Union for Conservation of Nature, and European Union's Natura 2000.
BEAR'S CAVE
CHEILE GALBENEI
BRIDE'S VEIL WATERFALL
VARASOAIA MEADOW
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POIANA MASTER PLAN 1. Twenty-room eco-resort housing dining and other amenities 2. A series of modular micro cabins 3. Dedicated camping sites
11 | RESPONSIBLE RETREAT
SITE ORGANIZATION FOR MICRO CABINS Micro cabins capitalize on the site’s remoteness, allowing visitors an experience immersed in nature. The cabins are tucked along dense trees with views toward the stream and meadows. The service path, meant for light vehicular access, is pulled back from the cabins with foot trails leading to each unit for minimal invasiveness.
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PROCESS The main goals for the micro cabins were to create an immersed experience in nature while incorporating passive strategies to heat and cool the spaces. The design exploration led to modularity as the ideal choice due to its ease of construction, futureproof capability, and design for disassembly.
13 | RESPONSIBLE RETREAT
RESPONSIBLE RETREAT | 14
BATH
MODULARITY The micro cabins are broken down into three prefabricated modules that function as the building blocks to create varying scales of cabins to attract the vast target audience coming to the Apuseni park region.
17 | RESPONSIBLE RETREAT
BED
LIVING + LOFT
OFF SITE PREFABRICATION The modules are built using Cross Laminated Timber (CLT) panels in the proposed fabrication facility at Pietroasa, three miles down the hill. This provides the local community an economic boost and becomes and opportunity to retool a construction workforce in a town facing issues of depopulation.
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ON-SITE ASSEMBLY Modules are prefabricated off-site. A frame is erected on diamond pin foundations eliminating the need to dig holes or pour concrete on site, and a utility chase is built for sewage and water exchange. The modules are transported via helicopter from Pietroasa, lowered onto the frame, and bolted in place two feet apart to provide tolerance for helicopter movement. This gap is filled by a connector piece that not only connects the modules, but also accentuates the modular condition of the cabins.
Foundation and utility chase built on site
15 | RESPONSIBLE RETREAT
Modules lowered onto elevated frame and bolted in place
Connectors assembled and installed on site
CROSS VENTILATION
FRAMED VIEWS
SOUTHERN EXPOSURE
WIND TURBINE
STACK VENTILATION
BUILT IN SOLAR PANEL
SUMMER WINDS
SITING STRATEGY SUMMER SUN
Prevailing wind direction and sun played an important role in orienting the cabins onsite. The modules are staggered in a way so as to benefit from the summer winds for cross ventilation. The Vertical Axis Wind Turbine above the Living+Loft module is oriented perpendicular to the prominent wind direction. The verticality of each module is emphasized to create stack ventilation. The windows tilt open to let in fresh air and flush out hot air naturally.
WINTER SUN
WINTER WINDS
The bathroom unit that contains the solar panel is always oriented facing south to recieve maximum sunlight. The roof is tilted at a 40-degree angle for optimal collection of solar radiation.
RESPONSIBLE RETREAT | 16
MODULE DETAILS Each module has a unique profile resulting from its respective program. Windows are inset into the thickness of the walls in an attempt to maintain the aesthetic of the continuous extruded profile. The wet walls in the Bath and Living+Loft modules are built as stud walls to contain utility equipment. Each module also has a plenum underneath through which to run utilities and electricity.
19 | RESPONSIBLE RETREAT
FAMILY
STUDIO
UNIT VARIATIONS MICRO
The three modules come together in different ways to form three unique micro cabins. Family Unit: comprised of all three modules, creating a two-bedroom cabin ideal for families with children or groups of hikers. Studio Unit: a combination of the Living+Loft module and the Bath module, resulting in a one-bedroom cabin with added amenities ideal for honeymooners. Micro Unit: created with the Bed and Bath module for a 'no-frills' cabin that is suitable for the more serious hikers.
RESPONSIBLE RETREAT | 20
APPROACH TO CABINS The cabins are clustered for ease of access without compromising privacy. Windows are strategically placed to allow views from the inside yet maintain privacy from the outside.
21 | RESPONSIBLE RETREAT
LIVING+LOFT MODULE INTERIOR Windows are created only where necessary in an attempt to reduce heat loss. They are deliberately placed to maintain a connection to the outside nature: framing views of the stream in the living area, at eye level behind the kitchen counter, and between the rungs of the built-in ladder for the lofted bed.
RESPONSIBLE RETREAT | 22
PHYSICAL MODELS On the left are images of a CNC-milled model showing the site in relation to the commune of Pietroasa situated about three miles south of the site. Areas touched by man are represented using a different material. This model calls out the locations of the interventions proposed at Poiana.
23 | RESPONSIBLE RETREAT
FAMILY UNIT
STUDIO UNIT
MICRO UNIT
RESPONSIBLE RETREAT | 24
01 THE MARKETPLACE Project: Semester: Professor: Duration: Team:
Innovation Center (UC+HDR+P&G) Summer 2016: Metrolab Terry Boling 13 weeks Emily Adams, John Arnaud, Jessica Dangelo, Amanda Fortman, Seher Hashmi, Tanvi Shah, Anjana Sivakumar, Bailey Stultz
This exploratory studio not only investigated the spatial qualities and characteristics that spark innovation but also attempted to answer the question: “What is an innovation center?” In response, four strategies for an innovation center on the University of Cincinnati campus were derived, ranging from centralized to decentralized. My partner and I conceived of the Marketplace strategy. It capitalizes on the strengths of both, the centralized and the decentralized strategies. Three hubs along with multiple mobile recource-pods allow a multitude of atmospheres to exist within one strategy. Various combinations of resources can be easily arranged to respond to the needs of the center’s visitors and can even provide existing buildings and places on campus the resources that they previously lacked. The mobile units can stand alone or be attached to existing buildings on campus via loading docks. This allows the innovation center to grow organically in response to the user’s need.
25 | THE MARKETPLACE
SITE The sites for the hubs were chosen based on: • Location of the nodes between different colleges • Access to roads for transporting the pods • Popular spots to attract students and faculty
CENTRAL HUB
27 | THE MARKETPLACE
BUSINESS HUB
STUDY HUB
VIGNETTES These collages highlight three moments of the Marketplace strategy—resource pods connected to a hub, pods being transported around to get from one hub to another, and mobile units being used independently on campus.
THE MARKETPLACE | 28
PROTOTYPES As we investigated transformable spaces and furniture that facilitate innovation, a group of students developed two prototypes. The first one is a layered map (left) of the University of Cincinnati that illustrates geographic relationships, resources, connectivity, and the four strategy locations on campus. These layers were held together by custom milled metal pins. The second prototype is a framework system (right) that can hold drawings sandwiched between two layers of acrylic held together by magnets. This makes it easy to move boards around. The frame also has armatures to support and hold small objects.
29 | THE MARKETPLACE
THE MARKETPLACE | 30
STRATEGY DEVELOPMENT COLLAGES
Breakthrough of innovation happens at the seam between disciplines. The outdoor space surrounding the resource pods create areas of opportunity by overlapping various programs and creating a great environment for innovation.
31 | THE MARKETPLACE
The flexibility of this strategy allows various activities to occur in close proximity to one another thus creating a marketplace of ideas on campus.
THE MARKETPLACE | 32
SECTION THROUGH THE MAIN HUB Moving sectionally through the hub, there is a sequence formed between the communal work space in the wings, the compressed private breakout space, and then finally the release into the main central hub.
33 | THE MARKETPLACE
THE MARKETPLACE | 34
THE MARKETPLACE COURTYARD Formed at the node where the hub and pods connect, the outdoor courtyard becomes an extension of the working space. This creates a market environment that flows seamlessly between indoor and outdoor spaces where people can work individually or collaboratively in an informal setting.
35 | THE MARKETPLACE
THE MARKETPLACE | 36
THE MARKETPLACE WING The ‘wing’ is the transition area where the pods connect into the hub creating a collaborative workspace (right). A foldable wall can transform the space by creating a private breakout space (left). Various activity zones are defined by using different materials.
37 | THE MARKETPLACE
THE MARKETPLACE | 38
02 [RE]FRAME Project: Semester: Professor: Duration: Team:
Modular Library Spring 2015: ACSA Steel Competition Erik Hemingway 14 weeks Long Fu, Tanvi Shah, Sangdo Yun
In response to the advancements in technology and changing societal values, the [Re]Frame proposal is a system that can be taken apart and easily reassembled. It brings the library to its users, thus moving away from the notion of the library being a static and traditional institution. The ease with which it can be put together and taken apart and the multiple configurations that it can be set up in allows this library to regularly traverse between various sites. Structurally assembled with prefabricated steel frames and finished with various types of panel systems, the [Re]Frame library allows for a fully dynamic design solution. This proposal hopes to give its users full control—exchanging regulation for freedom and choice. The experience of this space is defined by the user rather than defined for the user.
39 | [RE]FRAME
QR CODE WALLPAPER The use of QR codes rather than physical books allows for a more readily available source of information, removing the necessity of institutional security and thus promoting greater public domain.
41 | [RE]FRAME
GR 40 C6x13 Channel Prefabricated Hexagon Frame Snap-on Mechanism 1/4” Aluminum Panel
Frame to Panel Connection
GR 40 C6x13 Channel Prefabricated Hexagon Frame
Grid
1/4” Diameter Galvanized Steel Bolts 3”x3” Steel Angle 1/4” Steel Connection Plate
Frame to Frame Connection
GR 40 C6x13 Channel Prefabricated Hexagon Frame
Linear
3”x3” Steel Angle 1/4” Steel Connection Plate
Pod to Pod Connection
GR 40 C6x13 Channel Prefabricated Hexagon Frame
1/4” Wood Treads 2” Steel Stringer Bolted to C6x13 Channels
1/4” Aluminum Floor Panel
Staircase to Pod Connection CONNECTION DETAILS
Variant POD CONFIGURATIONS
[RE]FRAME | 42
[RE]FRAME BY THE BEACH
43 | [RE]FRAME
[RE]FRAME IN A CITY PLAZA
[RE]FRAME | 44
03 THE COURTYARD Project: Semester: Professor: Duration:
Boutique Hotel in Champaign, IL Fall 2014: Capstone Studio Scott Murray 14 weeks
The Courtyard hotel aims to engage with the pedestrians in downtown Champaign—a place where the restaurants and bars create energetic and lively sidewalks. The site lies on the edge of this energetic downtown area, thus an important goal was to draw attention to this building and thereby extend the experience further north. To achieve this, the facade was designed with circular windows to add an element of playfulness to the building. The windows are regular for ease of construction but the second perforated aluminum skin with irregular circles breaks the monotony and also provides overall shading and reduced heat gain during summer months. As part of the “Downtown Plan” to revitalize the area, the city has proposed to replace the triangular parking lot just south of the site into a green space. This lead to the idea of creating an open to above central courtyard of the hotel as a way of bringing the urban park indoors.
45 | THE COURTYARD
N Neil Street
N Randolph Street
W Columbia Avenue E Columbia Avenue
W Washington Street
NW alnu
W Hill Street
t Str eet
N Neil Street
N Randolp Street
E Washington Street
SITE PLAN
Utilizing the full site for the ground floor CONCEPT DIAGRAMS
47 | THE COURTYARD
Cutting courtyard through the center
Stacking rooms around the courtyard
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GUEST LEVEL
BASEMENT
1. Housekeeping/Laundry Room 2. Storage 3. Mechanical Room 4. HVAC Shafts 5. Service Elevator 6. Elevator Maintenance Room 7. Soil for Courtyard
10 Suites per Floor 1. Guest Elevators 2. Courtyard 3. Ice/Vending Machine 4. HVAC Shafts 5. Service Elevator 6. Service Closet
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E
FIRST FLOOR
17. Guest Elevators 18. Gym 19. Showers and Changing Rooms 20. Storage Room 21. Emergency Exit Vestibule 22. Service Closet 23. Swimming Pool 24. Conference Room
SECOND FLOOR
1. Reception 2. Lounge Seating 3. Courtyard 4. Restaurant 5. Kitchen 6. Service Closet 7. HVAC Shaft 8. Service Elevator 9. Staff Locker Room 10. Receiving/Storage Room
11. Garbage/Recycling Room 12. Mail/Copy Room 13. Meeting Room 14. Receptionist’s Office 15. Manager’s Office 16. Assistant Manager’s Office 17. Guest Elevators
THE COURTYARD | 48
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STRUCTURAL PLANS
Zone A: Public Space Zone B: Toilets Zone C: Restaurant Zone D: Kitchen Zone E: Offices Zone F: Back of House
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E
First Floor
First Floor
2
Second Floor
Zone A: Gym Zone B: Toilets Zone C: Conference Room Zone D: Service + Public Zone E: Changing Rooms Zone F: Swimming Pool
Second Floor
Guest Rooms
Zone A: Gym Zone B: Toilets Zone C: Conference Room
Guest Rooms
HVAC ZONING
VAV System Supply Line Return Line Vent Thermostat Fan Coil for Fire Escape
HVAC DUCTING
49 | THE COURTYARD
First Floor
VAV System Supply Line Return Line Vent Thermostat Fan Coil for Fire Escape
Second Floor
Four Pipe Fan Coil System Supply Line Return Line Fan Coil for Fire Escape
Guest Rooms
TYPICAL ROOM PLAN
3rd Through 6th Floors - 10 Rooms per Floor
TYPICAL SUITE PLAN 7th Floor - 5 Suites
PHOTOVOLTAIC PANELS Conservation from solar energy to electricity GREEN ROOF Reduction of heat gains to the building PERFORATED SECOND SKIN Reduction in direct heat gain during Summer by providing overall shading
DAYLIGHTING Natural light provides effective lighting during the daytime NATURAL VENTILATION Removal of air through the open courtyard
RAINWATER STORAGE Rainwater filtered and reused in the building for toilets and courtyard irrigation
PASSIVE ENERGY STRATEGIES
THE COURTYARD | 50
Roof Cap Vegetation Lightweight Engineered Soil Filter Fabric Retention Layer Sheet Barrier 3” Rigid Insulation
Z Connection Plate Carpet Flooring
Perforated Aluminum Skin Aluminum Panels
Double Pane, Low e Coated Glass Vapor Barrier Foam Insulation 5/8” Gypsum Board
Suspended Ceiling Rigid Insulation
Window Sill Skirting Hardwood Flooring Floor Sheathing 8” Concrete Slab
ELEVATION AND DETAILED SECTION
Expansion Joint at Sidewalk Cast-in-Place Concrete Foundation Wall Waterproofing Membrane
Steel Dowels to Anchor Foundation Wall to Footing Premolded Filler and Sealant at Expansion Joint Rigid Insulation Waterproofing Membrane 3’ x 1’-6” Footing Subsoil Drainage
51 | THE COURTYARD
RECEPTION AND MAIN LOBBY
TYPICAL ROOM INTERIOR
THE COURTYARD | 52
04 BLANK CANVAS Project: Semester: Professor: Duration:
Library in Chicago, IL Spring 2014: Architecture in the City David Emmons 8 weeks
Through investigating the site and its neighborhood, it was apparent that there was a strong presence of graffiti culture in the area. As a way of incorporating this culture into the library, the “blank canvas� wall to feature artwork created by the visitors was designed. The transparent East and South facades allow views into the building and open up the artwork to a larger audience. By being able to display artwork in the building, the users become engaged with it. The main staircase is suspended against the art wall and gives people the opportunity to view and experience the art from a close range.
53 | BLANK CANVAS
NC lark eet Str
N LaSalle Street
N Wels Street W North Avenue
N Clark Street
N LaSalle Street
N Wels Street
SITE PLAN
Inviting people in from the busiest intersection on site.
Opening up main entrance to the intersection.
Overhang above the entrance creates a plaza underneath.
Centrally placed art wall can be viewed on the street.
Suspended staircase becomes the spine of the building.
Transparent facades engage the pedestrians with the building.
CONCEPT DIAGRAMS
55 | BLANK CANVAS
EXPLODED AXON
BLANK CANVAS | 56
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SECOND FLOOR
THIRD FLOOR
1. Main Stacks 2. Staff Area 3. Mechanic and HVAC
1. Conference Room 2. Private Study Rooms 3. Computer Lab 4. Staff Area 5. Mechanic and HVAC 6. Stacks
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FIRST FLOOR 1. Entrance Atrium 2. Information Desk 3. Cafe 4. Offices 5. Mechanic and HVAC 6. Children’s Area 7. Service Elevator 8. Guest Elevator
57 | BLANK CANVAS
4
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10 9 8 7
5
ELEVATION AND DETAILED SECTION 1. Parapet Coping 2. Insulation 3. Fire Insulated Girder 4. Concrete Panels 5. Glass 6. Mullions 7. Suspended Ceiling 8. Beam 9. Steel Decking 10. Insulation 11. Flooring 12. Pile Cap 13. Piles
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BLANK CANVAS | 58
VIEW OF THE “BLANK CANVAS” FROM THE LOBBY
59 | BLANK CANVAS
READING AREA BY THE MAIN STACKS
CHILDREN’S READING AREA
BLANK CANVAS | 60
02 NON-ARCHITECTURE WORK
61 | NON-ARCHITECTURE WORK
NON-ARCHITECTURE WORK | 62
05 THE BLOOM TABLE Project: Semester: Professor: Duration:
Table with Integrated Fold-out Chairs Spring 2017: Furniture Design Jim Postell 10 weeks
The Bloom Table is a dining table, made from a single piece of plywood, with four integrated seats which open up like a flower. I began designing this table with the intention of using it as a dining table in my apartment but soon realized it could be used for a lot more than that. This piece creates a space of social gathering around it, bringing people together in a close circle where there is no hierarchy. It is designed in a way that it brings adults and kids at the same level to enjoy a meal together or play board games. When not in use, the seats can be folded back and the tabletop can continue to be used. The Bloom Table has the potential to be reproduced at a smaller scale for kids or at a larger scale with a bigger footprint to add more seats. The ease with which the tabletop can be removed facilitates its replacement with surfaces that include table games and various integral functions.
63 | THE BLOOM TABLE
24” 11”
R 1”
R 1”
R 1”
R 1”
4”
11”
24”
4”
PLAN 11”
4”
24” 23/32”
6” 2”
ELEVATION
65 | THE BLOOM TABLE
14”
23/32”
18”
8”
1 1/2”
DIRECTION OF GRAIN
23/32” 23/32”
12”
23/32”
23/32”
1 1/2” 1 1/2” 1/2” 1/2”
14” 10”
23/32” 1 1/2” 1 1/2” 1/2” 1/2”
4 1/2”
DESIGN DETAILS The seats have a concave profile for comfort, created using a CNC milling machine. This process exposed the perpendicular plywood layers, resulting in a unique pattern on each seat. The seats have holes in them which serve as handles when pulling them out of or into the table. Together, the magnets under the seats and the footrests lock the seat into place when in use. For additional stability, a bottom plate which slots into each corner was added to the base.
EXPLODED AXON
THE BLOOM TABLE | 66
PROCESS
67 | THE BLOOM TABLE
INTERACTION
DETAILS
THE BLOOM TABLE | 68
03 PROFESSIONAL WORK
69 | PROFESSIONAL WORK
PROFESSIONAL WORK | 70
06 ARCHITEX SHOWROOM Project: Location:
Renovation Chicago, IL
Architex is a leading contract textile line providing solutions for hospitality, commercial, and healthcare venues. They selected HDR to design their first permanent US showroom at the Merchandise Mart in Chicago for use during NeoCon 2016 and beyond. The goal was to create an engaging and cost-effective showroom with built-in flexibility to transform spaces. The entire showroom was designed to be a simple, loft-like, multi-functional and flexible environment. The design inspiration came from the “black box” theatrical staging approach—Using a sturdy structural rail system to display fabric, raw flooring, custom built changeable logo/display racks, and reconfigurable interlocking seating cubes, this space can be transformed over and over rather easily without any invasive renovation.
71 | ARCHITEX SHOWROOM | HDR
ARCHITEX FABRIC RAIL MOUNTED TO UNDERSIDE OF FRAME 3”X4” POST FRAME PAINTED MATTE WHITE (TYP.)
3/4” WHITE PAINTED BACK PANEL 1 1/2” STANDARD DOWELS PAINTED MATTE WHITE (TYP.) CLEAR PLEXI STRIP BOLTED TO FRAME 2” MATTE WHITE DIMENSIONAL TEXT BOLTED TO PLEXI STRIP
AXON OF LOGO WALL
1”
1/2”
EQ.
EQ.
1/2”
1”
1/2” EQ.
EQ. EQ. EQ.
6”
1’-6”
EQ. EQ. 8’-0” EQ.
EQ.
9” Typ.
10” Typ.
EQ.
EQ. 12’-0”
FRONT ELEVATION AND SIDE SECTION OF LOGO WALL
73 | ARCHITEX SHOWROOM | HDR
EQ.
I designed this logo wall as a way of using products as a backdrop for their logo. The textile can be easily replaced to showcase new styles from time to time.
HDR | ARCHITEX SHOWROOM | 74
UPHOLSTERED FOAM CUSHIONS EASED CORNERS
PAINT-GRADE 3/4” PLYWOOD PLATFORMS, PAINTED WHITE
LOCK CASTERS
LOUNGE FURNITURE AXON VELCRO STRIPS 1’-0” 1 1/2” 1”
ALLIGATOR CLIPS 2’-6”
LOCK CASTERS
2’-6”
R 2” Typ. 5’-0”
1’-0 1/4” 0 3/4”
1’-6”
5”
LOUNGE FURNITURE DETAIL
75 | ARCHITEX SHOWROOM | HDR
CONFIGURATION OPTIONS
The seating cubes are another way to display products. They can be easily reupholstered to highlight new fabric introductions. The seats can be connected using alligator clips and arranged in various configurations as per the client’s need.
HDR | ARCHITEX SHOWROOM | 76
07 CYRUSONE DATA CENTER Project: Location:
Office and Breakroom Carrollton, TX
CyrusOne’s 670,000 square foot data center in Carrollton is the largest colocation data center in the state of Texas. While I got to work on drawing for an additional data hall in this center, I was mainly in charge of preparing Permit Drawings, the IFC set, City Comments sets, and Revision sets for an office and breakroom addition. I also created schematic plans for client presentations using Photoshop and Illustrator. Throughout these projects, I gained some Construction Administration experience as I reviewed submittals of shop drawings, product data, and product samples for this project.
77 | CYRUSONE DATA CENTER | CORGAN
LIMITS OF CONSTRUCTION
79 | CYRUSONE DATA CENTER | CORGAN
FINISH PLANS AND DETAILS
CORGAN | CYRUSONE DATA CENTER | 80
ENLARGED PLAN AND INTERIOR ELEVATIONS
81 | CYRUSONE DATA CENTER | CORGAN
MILLWORK DETAILS
CORGAN | CYRUSONE DATA CENTER | 82
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